References
- E. M. Lehockey, G. Palumbo, P. Lin and A. M. Brennenstuhl: ‘On the relationship between grain boundary character distribution and intergranular corrosion’, Scr. Mater., 1997, 36, (10), 1211–1218.
- S. Tsurekawa, S. Nakamichi and T. Watanabe: ‘Correlation of grain boundary connectivity with grain boundary character distribution in austenitic stainless steel’, Acta Mater., 2006, 54, 3617–3626.
- L. Babout, T. J. Marrow, D. Engelberg and P. J. Withers: 'X-ray microtomographic observation of intergranular stress corrosion cracking in sensitised austenitic stainless steel', Mater. Sci. Technol., 2006, 22, (9), 1068–1075.
- A. P. Jivkov and T. J. Marrow: ‘Rates of intergranular environ-ment assisted cracking in three-dimensional model microstruc-tures’, Theor. Appl. Fract. Mech., 2007, 48, (3), 187–202.
- A. King, G. Johnson, D. Engelberg, T. J. Marrow and W. Ludwig: ‘Observation of intergranular stress corrosion cracking in a grain-mapped polysrystal’, Science, 2008, 321, 382–385.
- H. Grimmer, W. Bollmann and D. H. Warrington: ‘Coincidence-site lattices and complete pattern-shift lattices in cubic crystals’, Acta Crystallogr. A, 1974, 30A, 197–207.
- V. Y. Gertsman and S. M. Bruemmer: ‘Study of grain boundary character along intergranular stress corrosion crack paths in austenitic alloys’, Acta Mater., 2001, 49, 1589–1598.
- Y. Thou, K. T. Aust, U. Erb and G. Palumbo: ‘Effects of grain boundary structure on carbide precipitation in 304L stainless steel’, Scr. Mater., 2001, 45, (1), 49–54.
- S. Rahimi, D. L. Engelberg, J. A. Duff and T. J. Marrow: 'In situ observation of intergranular crack nucleation in a grain boundary controlled austenitic stainless steel', J. Microsc., 2009, 233, (3), 423–431.
- H. Kokawa, M. Shimada and Y. S. Sato: ‘Grain-boundary structure and precipitation in sensitized austenitic stainless steels’, J. Miner. Metals Mater. Soc., 2000, 52, (7), 34–37.
- V. Y. Gertsman and C. H. Henager, Jr: Grain boundary junctions in microstructure generated by multiple twinning', Interf Sci, 2003, 11, 403–415.
- D. L. Engelberg, F. J. Humphreys and T. J. Marrow: 'The influence of low-strain thermo-mechanical processing on grain boundary network characteristics in type 304 austenitic stainless steel', J. Microsc., 2008, 230, (3), 435444.
- J. A. Basinger, E. R. Homer, D. T. Fullwood and B. L. Adams: ‘Two-dimensional grain boundary percolation in alloy 304 stainless steel’, Scr. Mater., 2005, 53, 959–963.
- M. Frary and C. A. Schuh: ‘Grain boundary networks: scaling laws, preferred cluster structure, and their implications for grain boundary engineering’, Acta Mater., 2005, 53, 4323–4335.
- C. A. Schuh, M. Kumar and W. E. King: ‘Analysis of grain boundary networks and their evolution during grain boundary engineering’, Acta Mater., 2003, 51, 687–700.
- B. W. Reed and M. Kumar: ‘Mathematical methods for analyzing highly-twinned grain boundary networks’, Scr. Mater., 2006, 54, 1029–1033.
- B. W. Reed, M. Kumar, R. W. Minich and R. E. Rudd: ‘Fracture roughness scaling and its correlation with grain boundary network structure’, Acta Mater., 2008, 56, 3278–3289.
- D. L. Engelberg, S. Rahimi and T. J. Marrow: ‘Towards understanding the development of grain boundary clusters in austenitic stainless steel’, Proc. Conf. Thermec 2009, Berlin, Germany, August 2009, Technical University-Berlin.
- F. J. Humphreys: 'Vmap—orientation mapping and quantitative metallography by EBSD'; 2001, Manchester, University of Manchester.
- D. G. Brandon: ‘The structure of high-angle grain boundaries’, Acta Metal., 1966, 14, 1479–1484.
- ‘Corrosion of metals and alloys—electrochemical potentiokinetic reactivation measurement using the double loop method (based on Cihal's method)’, ISO 12732:2006, ISO, Geneva, Switzerland, 2006.
- A. P. Majidi and M. A. Streicher: ‘The double loop reactivation method for detecting sensitization in AISI 304 stainless steel’, Corrosion, 1984, 40, (11), 584–593.